Cardiopulmonary bypass induces enduring alterations to host neutrophil physiology: a single-center longitudinal observational study

Studies during and immediately post-cardiopulmonary bypass (CPB) surgery have revealed that neutrophils (PMNs) are pivotal to post-CPB inflammation and innate immunity. The aim of this study was to investigate the effects of CPB on the PMN phenotype and respiratory burst function over a longer post-CPB period (up to day 5). Blood samples were collected pre-CPB and on days 1, 3, and 5 post-CPB from 20 patients. Changes to PMN surface expression of CD16, CD62L, CD11b, CD18, and CD43, and PMN respiratory burst activity were measured, together with the white blood cell count and absolute PMN count. Cardiopulmonary bypass induced neutrophilia on days 1 and 3. One day post-CPB, CD16 expression reached a nadir (P = 0.001), and platelet-activating factor-induced CD18 increase was depressed (P < 0.05). Three days post-CPB, CD43 expression peaked (P < 0.05), with a concomitant resistance to N-formyl-Met-Leu-Phe-induced CD11b upregulation (P < 0.05). The PMN respiratory burst activity declined continuously post-CPB until day 5. Neutrophilia on days 1 and 3 was associated with changes to surface molecules expression that may reduce PMN activation response. This study demonstrated that CPB depresses the respiratory burst activity of host PMNs for an extraordinarily longer period of at least 5 days even after neutrophilia had resolved. Collectively, the changes portray an autoprotective yet responsive homeostatic balance.     

In vitro and ex vivo effects of cyclosporin A on phagocytic host defenses against Aspergillus fumigatus.

Because cyclosporin A (CsA) is extensively used as an immunosuppressive agent, its effects on phagocytic defenses against Aspergillus fumigatus were studied in vitro and ex vivo. After incubation with 10 to 250 ng of CsA per ml at 37 degrees C for 60 min, polymorphonuclear leukocytes (PMNs) exhibited unaltered superoxide anion (O2-) production in response to phorbol myristate acetate and N-formylmethionyl leucyl phenylalanine, whereas > or = 500 ng/ml significantly suppressed it (P < 0.01). Moreover, at < 250 ng of CsA per ml, PMNs exhibited no change in their capacity to damage unopsonized hyphae of A. fumigatus compared with controls, whereas at > or = 250 ng/ml, CsA suppressed the function (P < 0.01). Although neither CsA (250 ng/ml) nor hydrocortisone (10 micrograms/ml) suppressed PMN O2- production in response to phorbol myristate acetate and N-formylmethionyl leucyl phenylalanine, combination of the two agents reduced the function compared with that at the baseline (P < 0.05). Incubation of monocytes with 100 ng of CsA per ml for 1 or 2 days suppressed their antihyphal activity. No essential change in phagocytic activity of monocyte-derived macrophages (MDMs) against A. fumigatus conidia, tested as the percentage of phagocytosing MDMs and average number of MDM-associated conidia, was detected after 2 or 4 days of incubation with 10 to 1,000 ng of CsA per ml. Furthermore, in rabbits treated with CsA (up to 20 mg/kg of body weight per day intravenously for 7 days), neither O2- production and hyphal damage caused by PMNs or monocytes against hyphae nor phagocytosis of conidia by pulmonary alveolar macrophages was significantly suppressed. Thus, these results demonstrated that CsA within therapeutically relevant concentrations does not suppress antifungal activity of phagocytes except that of circulating monocytes. However, it may induce significant immunosuppression of phagocytes' antifungal function at relatively high concentrations in vitro, especially when combined with corticosteroids.     

Impairment of polymorphonuclear leukocyte function and metabolic control of diabetes.

OBJECTIVE--In this study, ingestion of Staphylococcus aureus and "bacteria killing" (BK) were measured to evaluate polymorphonuclear leukocyte (PMN) phagocytic functions and chemiluminescence response (CL) to phorbol-myristic acetate (PMA) as respiratory burst activity with regard to metabolic control parameters in diabetic patients. RESEARCH DESIGN AND METHODS--PMN phagocytic functions were assessed in 40 diabetic patients, all receiving insulin and in poor metabolic control, with 3H-thymidine-labeled Staphylococcus aureus in a modified radiometric assay. Bacteria killing was determined by pure-plate counting of surviving bacteria (colony-forming units [cfu]) and luminol-enhanced CL in response to PMA as a measure of respiratory burst. PMN function data were correlated to HbA1 as parameter of recent metabolic control. RESULTS--PMN of diabetic patients showed a significant reduction in Staphylococcus aureus (50.7 +/- 4.1%) and BK (29.4 +/- 4.2%) compared with healthy nondiabetic control subjects (76.6 +/- 4.6% and 16.3 +/- 3.1%, respectively, P less than 0.001), and PMN CL response was markedly reduced in diabetic patients also. Linear regression analysis showed a highly significant negative correlation of HbA1 versus Staphylococcus aureus (r = -0.67, P = 0.001) and a positive correlation for BK (r = 0.73, P less than 0.001). This was also true for CL, although this did not reach statistical significance (P = 0.06). CONCLUSIONS--The data obtained demonstrate impaired PMN phagocytic functions and CL response in diabetic patients. These findings suggest inhibitory effects of elevated glucose concentrations on PMNs, a possible role of protein glycosylation for impairing PMN function, thus contributing in part to altered host defense.     

Studies on the molecular mechanisms of human Fc receptor-mediated phagocytosis. Amplification of ingestion is dependent on the generation of reactive oxygen metabolites and is deficient in polymorphonuclear leukocytes from patients with chronic granulomatous disease.

Human PMN and monocytes both possess a mechanism for amplifying Fc receptor-mediated phagocytic function, which is dependent on activation of the respiratory burst. The pathway for augmentation of phagocytosis requires superoxide anion, hydrogen peroxide, and lactoferrin and is independent of the hydrogen peroxide-MPO-halide system. In neither cell type is this mechanism induced upon exposure to the opsonized target. PMN require an additional signal for stimulation of the respiratory burst; this is not true of monocytes. On the other hand, monocytes require an exogenous source of lactoferrin in order to activate this pathway for enhanced ingestion. The dependence of this pathway for both PMN and monocytes on superoxide anion, hydrogen peroxide, and cell-bound lactoferrin is consistent with a role for locally generated reactive oxygen metabolites, possibly hydroxyl radicals, in phagocytosis amplification. Patients with chronic granulomatous disease, who are genetically deficient in the ability to activate the respiratory burst, are unable to amplify Fc receptor-mediated phagocytosis. Thus, these patients may have a previously unrecognized defect in the recruitment of phagocytic function at inflammatory sites.     

Intracellular and extracellular defenses of human phagocytes against Blastomyces dermatitidis conidia and yeasts

The lesions of blastomycosis are characterized by both suppuration and granuloma formation, but the relative roles of human neutrophils, monocytes, and macrophages against Blastomyces dermatitidis are poorly defined. Our studies reveal that B. dermatitidis yeasts are generally too large to be ingested by polymorphonuclear neutrophils (PMNs), and are killed predominantly by external PMN attachment and degranulation, whereas conidia are first ingested, then killed. PMN function is maximal in the presence of serum, divalent cations, and complement, and killing is more efficient for conidia (approximately 50%) than for yeasts (approximately 20%). PMNs that have degranulated, but remain attached to yeasts, block access by contiguous PMNs. When degranulated PMNs are removed, allowing access by fresh PMNs, there is a further increment in yeast killing. Both conidia and yeasts are killed by predominantly oxidative PMN mechanisms, with conidia being greater activators of the respiratory burst, and proportionately more influenced by oxidative inhibitors. Peripheral blood monocytes can kill conidia (approximately 35%), but are feebly active against yeasts (approximately 5%). Monocyte-derived macrophages kill approximately 90% of conidia and 40% of yeasts. The dramatic susceptibility of conidia, the infective particles of B. dermatitidis, to nonspecific phagocytic host defenses may help to explain the relative rarity of blastomycosis as a clinical problem. The presence of PMNs in lesions of blastomycosis may indicate an active, although limited, role of these cells in host defense against B. dermatitidis yeasts.     

The anti-inflammatory effects of circulating fatty acids in obstructive jaundice: similarities with pregnancy-induced immunosuppression

Rheumatoid arthritis (RA) is ameliorated during both obstructive jaundice and pregnancy. Previous studies of polymorphonuclear leukocyte (PMN) function during pregnancy have shown reductions in the stimulated release of arachidonic acid (AA) and leukotriene B4 (LTB4), and lower NADPH oxidase activity. These changes may account for the amelioration of RA. The cause of this reduction in PMN function appears to be a progressive change in circulating fatty acids (FA), with a reduction in polyunsaturated FA, predominantly AA. The NADPH oxidase responsible for the respiratory burst has a direct requirement for polyunsaturated FA, particularly AA. We investigated whether the same changes in PMN function and FA, occur during obstructive jaundice. Patients with biliary obstructions were investigated before and after surgical correction (n=14). Obstructive jaundice caused significant changes in the proportions of serum and cellular FA. There was a striking reduction in polyunsaturated FA, particularly AA (48% in serum, p<0.001; 42% in PMNs, p<0.001) and an increase in mono-unsaturated oleic acid (24% in serum, p<0.001; 15% in PMNs, p<0.005). Similar changes occurred in mononuclear cell FA. Jaundice also caused a significant reduction in PMN function. Respiratory burst activity was reduced by between 32% and 38% in response to physiological and non-physiological stimuli, and there were similar significant reductions in the release of AA and LTB4. These changes in stimulated PMN function were evident whether or not the cells were first primed with tumour necrosis factor alpha (TNFalpha). Incubation of PMNs from healthy donors in pooled serum from patients with obstructive jaundice caused a reduction of 32% in cellular AA and 38% in NADPH oxidase activity. These findings support the idea that circulating FA can regulate PMN inflammatory responsiveness. The FA-induced attenuation in PMN activity in both jaundice and pregnancy may explain their ameliorating effects upon RA.     

Neutrophil transfusions: kinetics and functions of neutrophils mobilized with granulocyte-colony-stimulating factor and dexamethasone

BACKGROUND: The collection of adequate numbers of neutrophils (polymorphonuclear leukocytes, PMNs) from normal donors has long hampered the development of neutrophil transfusion therapy. The stimulation of donors with granulocyte-colony-stimulating factor (G- CSF) plus dexamethasone is a promising way of improving PMN collections. STUDY DESIGN AND METHODS: Sixteen normal subjects received G-CSF (600 micrograms subcutaneously) and dexamethasone (8 mg by mouth) 12 hours before leukapheresis. Measurements included PMN morphology, immunophenotype analysis, chemiluminescence, bactericidal activity, in vivo kinetics, and adverse effects. RESULTS: A mean of 77.4 +/− 6.4 × 10(9) PMNs was collected with each leukapheresis; 14 percent were bands. PMNs had increased surface expression of CD11b, CD18, CD14, CD32, and CD64. Bactericidal capacity against Staphylococcus aureus was normal. Inducible respiratory burst was maintained, although the responses to some agonists were diminished. Returned leukapheresis cells labeled with 3H-diisopropylfluorophosphate had a modestly decreased percentage of recovery and circulated with a prolonged half- life. Migration of these cells to skin chambers was approximately equal to that of the subjects' own blood PMNs. Adverse effects included transient bone pain, headache, hunger, and insomnia. CONCLUSIONS: Precollection treatment of leukapheresis donors with G-CSF plus dexamethasone is an effective way to enhance the collection of PMNs with normal or near-normal functional properties for PMN transfusion therapy.     

Tumor necrosis factor-alpha blockade prevents neutrophil CD18 receptor upregulation and attenuates acute lung injury in porcine sepsis without inhibition of neutrophil oxygen radical generation.

Tumor necrosis factor (TNF alpha), both by direct action and by trafficking cells of the immune system, is implicated in cardiopulmonary derangements and PMN-mediated microvascular injury associated with gram-negative sepsis. We examined the effects of pretreatment with a monoclonal antibody to TNF alpha on PMN function, hemodynamic derangements, and alveolar capillary membrane damage in a septic porcine model. Anti-TNF alpha profoundly improved hemodynamic consequences in this model. Reduction in PMN CD11/18 receptor expression, lung myeloperoxidase activity, and attenuation of peripheral neutropenia (all P < 0.05) indicate that pretreatment significantly reduced lung sequestration of PMNs seen in septic controls. In contrast, PMN oxygen radical (O2-) generation was not significantly different from unprotected septic animals. Despite the presence of circulating PMNs primed for O2- burst, alveolar capillary membrane damage, assessed by bronchoalveolar lavage protein content and arterial PO2 was markedly attenuated in the treatment group (P < 0.05). We conclude that anti-TNF alpha suppresses systemic hemodynamic actions of TNF alpha. Further, it prevents upregulation of PMN adhesion receptors inhibiting PMN/endothelial cell interaction. This prevents formation of a "microenvironment," protected from circulating oxidant scavengers, into which sepsis-activated PMNs release their toxic products. Pretreatment with anti-TNF alpha monoclonal antibody thus affords global protection in porcine Gram-negative sepsis.     

Mechanisms for the diminished neutrophil exudation to secondary inflammatory sites in infected patients with a systemic inflammatory response (sepsis)

OBJECTIVE: To determine the mechanism for the reduced polymorphonuclear neutrophil exudation to secondary inflammatory sites in critically ill patients with infection and systemic inflammatory response (sepsis). DESIGN: Prospective cohort study. SETTING: Research laboratory and integrated intensive care unit of a tertiary care university-affiliated teaching hospital. PATIENTS: Healthy subjects or critically ill patients with confirmed infection and a systemic inflammatory response (septic patients). MEASUREMENTS AND MAIN RESULTS: We found that polymorphonuclear neutrophil delivery to a secondary inflammatory site (skin window blisters) is reduced by >70% in humans with sepsis, defined as serious infection and a systemic inflammatory response compared with healthy controls. The expression of the endothelial adhesion molecules intercellular adhesion molecule-1, E-selectin and P-selectin in microvessels from skin biopsies was comparable in the two study groups. Also, CD11a and CD11b levels were equal in circulating polymorphonuclear neutrophils (PMNs) from both study groups. Both adhesion molecules were markedly and equally up-regulated during exudation. Circulating PMNs from septic patients showed marked shedding of L-selectin compared to those of healthy controls, with a corresponding increase in their plasma L-selectin levels. An increased concentration gradient between plasma and exudate fluid was found for tumor necrosis factor-alpha and interleukin-8 in septic patients, but not for C5a. The phagocytic and bactericidal capacity of septic patient circulating PMNs was higher then in healthy control patients, but these differences were lost after exudation. There were no major differences in oxidative burst or intracellular calcium flux of circulating PMNs from the two study groups. Polymorphonuclear neutrophil exudation primed both responses to different extents. CONCLUSIONS: Septic patients deliver fewer PMNs to secondary inflammatory sites. In addition, neutrophil exudation results in loss of the small priming effect for phagocytosis and bactericidal function induced by sepsis. Failure to produce a gradient to C5a and intravascular shedding of L-selectin may be responsible for this sepsis-induced reduction in neutrophil exudation to secondary inflammatory sites.     

Studies on phagocytosis in patients with acute bacterial infections.

Polymorphonuclear leukocytes (PMN) and monocytes from 20 patients with acute bacterial infections were examined for phagocytic function. PMN of patients expressed markedly enhanced phagocytosis as measured by the ingestion of erythrocyte (E)IgG and IgG/C3b-coated E. Phagocytosis of E coated with C3b alone was not seen, while low levels of ingestion of iC3b-E by patients' PMNs was noted. Monocytes from patients and controls expressed similar phagocytic activity in a fixed endpoint assay; however, the kinetics of phagocytosis by patients' monocytes was strikingly faster. Superoxide anion (O2.) and myeloperoxidase activities were similar to controls in PMN of four patients studied on day 1 of admission. PMN from two of three patients studied longitudinally showed an initial elevation in EIgG phagocytosis, which fell to normal levels by day 4, concomitantly with increased O2. generation and clinical improvement. Phagocytosis remained elevated in the third patient who did not clear his septicemia. Surface membrane FcRII, FcRIII, CR1, and CR3 were similar on patient and control PMN. In contrast, FcRI was increased on PMN of five of seven patients by monomeric IgG binding, and on two of two patients by monoclonal anti-FcRI binding. Thus, PMN and monocytes of patients with acute bacterial infections are either upregulated with regard to phagocytic function or are less susceptible to downregulation than are normal cells. This presumably would have a beneficial effect on host defenses during infection.     

Increased phagocytic activity of polymorphonuclear leukocytes of chronic granulomatous disease as determined with flow cytometric assay.

Using flow cytometry, we compared the phagocytic activity of polymorphonuclear leukocytes (PMNs) from healthy donors with that of PMNs from 10 patients with chronic granulomatous disease (CGD), eight carriers of X-linked CGD, and one patient with myeloperoxidase deficiency. Ingestion of fluorescent bacteria by CGD and myeloperoxidase-deficient PMNs was significantly increased, that is, about 1.5 times that of normal controls. In CGD carriers, two PMN populations were found: one population consisted of PMNs with enhanced phagocytosis, and the other consisted of PMNs with normal phagocytic activity. With a two-dimensional analysis, we also demonstrated in CGD carriers that phagocytosis of the PMNs that failed to generate hydrogen peroxide was significantly elevated, as was phagocytosis of PMNs in patients with CGD, while on the other hand, the PMNs that normally produced hydrogen peroxide exhibited a normal phagocytic activity. When sodium azide, an inhibitor of myeloperoxidase and catalase, was added to control and carrier PMNs, phagocytic activity was significantly increased, p less than 0.01 in both, but not to the level seen with CGD PMNs. Phagocytosis of CGD and myeloperoxidase-deficient PMNs, however, remained unchanged by the azide treatment. On the basis of above findings, we speculate that phagocytosis of CGD PMNs is increased because the H2O2-myeloperoxidase-halide system, which may modulate phagocytic activity of PMNs, fails to operate.     

Entry of gut lymph into the circulation primes rat neutrophil respiratory burst in hemorrhagic shock.

OBJECTIVE: Endothelial cell injury by polymorphonuclear neutrophil (neutrophil [PMN]) respiratory burst after trauma and hemorrhagic shock (T/HS) predisposes subjects to acute respiratory distress syndrome and multiple organ failure. T/HS mesenteric lymph injures endothelial cell and lymph duct ligation (LDL) before T/HS prevents pulmonary injury. We investigated the role of mesenteric lymph in PMN priming by T/HS. DESIGN: Prospective experiment in rats. SETTING: University hospital laboratory. SUBJECTS: Adult male rats. INTERVENTIONS: Mesenteric lymph was obtained from rats undergoing T/HS (30 mm Hg, 90 mins) or sham shock (T/SS). Plasma was harvested from uninstrumented control (UC), T/HS, T/SS, and T/HS+LDL rats. PMNs were isolated from UC, T/HS, and T/HS+LDL rats. MEASUREMENTS AND MAIN RESULTS: PMNs from UC rats were incubated in buffer, 1% T/HS lymph, and 1% T/SS lymph. PMNs from UC rats were incubated in UC, T/HS, T/SS, and T/HS+LDL plasma. PMN respiratory burst was initiated by using macrophage inflammatory protein (MIP)-2/platelet-aggregating factor (PAF) or phorbol myristate acetate. Cytosolic calcium ([Ca2+]i) responses to MIP-2/PAF were assayed in PMN from UC, T/HS, and T/HS+LDL rats. PMN preincubated in T/HS lymph showed significant elevations in MIP/PAF-elicited respiratory burst compared with T/HS lymph or buffer only (p <.05; analysis of variance/Tukey's test). T/HS lymph incubation also increased (p <.05) phorbol myristate acetate elicited respiratory burst compared with buffer or T/SS. Preincubation in T/HS plasma increased MIP-2/PAF-elicited respiratory burst (p <.05) compared with UC or T/SS plasma. LDL blocked T/HS priming of respiratory burst. Control PMN [Ca2+]i responses to MIP-2 and PAF were low. T/SS PMN were significantly more responsive, but the T/HS PMN showed still higher responses (p <.01). LDL reversed the priming of [Ca2+]i responses by T/HS (p <.01). CONCLUSIONS: PMNs are primed by T/HS lymph but not T/SS lymph and by T/HS plasma but not T/SS plasma. LDL before shock prevents T/HS plasma from priming PMN. The magnitude of respiratory burst found here paralleled the [Ca2+]i responses seen to receptor dependent initiating agonists. Mesenteric lymph is both necessary and sufficient to prime PMN after T/HS in the rat, and it primes PMN in part by enhancing [Ca2+]i responses to G-protein coupled chemoattractants. Mesenteric lymph mediates postshock PMN dysfunction.     

Glycogen metabolism in stored granulocytes

Optimal function of transfused granulocytes (PMNs) requires adequate glycogen metabolism. Previous studies in our laboratory suggested that stored PMNs had decreased glycogen. We report here the glycogen content and chemotaxis of stored PMNs, and the ability of fresh and stored PMNs to use glycogen as the fuel source for chemotaxis. PMNs were prepared from 8 fresh units of blood drawn into citrate-phosphate-dextrose-adenine, suspended at 2 or 8 X 10(7) PMN per ml in autologous plasma with or without 15 mM sodium bicarbonate, and stored at 22 to 24 degrees C in transfer packs for 48 hours. Glycogen was measured on resting PMNs, and after challenge with opsonized zymosan and F-Met-Leu-Phe (FMLP). The chemotaxis of fresh and stored PMNs was measured in the presence or absence of extracellular glucose. Fresh PMNs contained 10.3 +/- 0.5 (mean +/- SEM) micrograms of glycogen per 10(6) PMN. Glycogen decreased by 4.2 +/- 0.9 micrograms per 10(6) PMN after challenge with opsonized zymosan and by 1.1 +/- 0.6 micrograms per 10(6) PMN after FMLP. After 48 hours of storage, neutrophil glycogen increased by 18 percent, except in units stored at a concentration of PMN of 8 X 10(7) per ml without sodium bicarbonate. In PMNs from these units stored without bicarbonate, glycogen decreased by 9 percent (p less than .05), and there was a 19 and 55 percent decrease in the ability of PMN from these units to metabolize glycogen after exposure to opsonized zymosan and FMLP, respectively (p less than 0.05). In addition, in PMNs from units stored at a concentration of PMN of 8 X 10(7) per ml without bicarbonate, there was a 47 and 70 percent decrease in chemotaxis at 24 and 48 hours, respectively (p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)     

Lipid complexing decreases amphotericin B inflammatory activation of human neutrophils compared with that of a desoxycholate-suspended preparation of amphotericin B (Fungizone).

Amphotericin B (AmB) has toxic effects and alters neutrophil (polymorphonuclear leukocyte [PMN]) function. A lipid-complexed formulation of AmB (AmB-LC) has been reported (A. S. Janoff, L. T. Boni, M. C. Popescu, S. R. Minchey, P. R. Cullis, T. D. Madden, T. Taraschi, S. M. Gruner, E. Shyamsunder, M. W. Tate, R. Mendelsohn, and D. Bonner, Proc. Natl. Acad. Sci. USA 85:6122-6126, 1988) to be less toxic than a desoxycholate-suspended preparation of AmB (AmB-des; Fungizone). In this study we compared the effects of AmB-des and AmB-LC on in vitro PMN function. Neither form of AmB stimulated PMN chemiluminescence, but AmB-des (2 micrograms/ml) nearly tripled PMN chemiluminescence in response to f-Met-Leu-Phe (fMLP), a phenomenon known as priming. Because AmB stimulates monocytes to release cytokines which can affect PMN function, we studied the effects of AmB on PMNs in mixed leukocyte cultures. AmB-des (1 to 2 micrograms/ml) increased the chemiluminescence of PMNs plus mixed mononuclear leukocytes (MNLs) to fMLP. The activity was about three times that of PMNs plus MNLs and seven times the activity of PMNs stimulated with fMLP in the absence of MNLs. Cell-free AmB-des (2 micrograms/ml)-stimulated, MNL-conditioned medium primed pure PMNs to a level equal to that of whole MNLs treated with AmB-des. AmB-LC was much less potent. AmB-LC (20 micrograms/ml) increased fMLP-stimulated chemiluminescence to two times that of PMNs plus MNLs without AmB-LC. AmB-des (2 micrograms/ml) (but not AmB-LC [2 micrograms/ml]) increased nitroblue tetrazolium reduction by PMNs in whole blood from 31 to 52% of positive cells. Neither form of AmB increased Mac-1 (the CD11b/CD18 integrin) expression of pure PMNs. AmB-des (0.5 to 2 micrograms/ml) (but not AmB-LC [< or = 40 micrograms/ml]) nearly doubled PMN Mac-1 expression in the presence of MNLs, and cell-free AmB-des (2 micrograms/ml)-stimulated, MNL-conditioned medium stimulated PMN Mac-1 to 125% of the control level. AmB-des (0.2 to 2 micrograms/ml) (but not AmB-LC [< or = 40 micrograms/ml]) decreased chemotaxis of pure PMNs to fMLP by as much as 35% and that of PMNs in the presence of MNLs by as much as 50%. Desoxycholate by itself had no effect on PMN function. These differences in activity between AmB-des and AmB-LC may explain the lessened toxicity observed with AmB-LC.     

Effect of ibuprofen on neutrophil migration in vivo in cystic fibrosis and healthy subjects

Long-term treatment with ibuprofen twice daily, at doses that achieve peak plasma concentration (Cmax) >50 microg/ml, slows progression of lung disease in patients with cystic fibrosis (CF). Previous data suggest that Cmax >50 microg/ml is associated with a reduction in neutrophil (PMN) migration into the lung and that lower concentrations are associated with an increase in PMN migration. To estimate the threshold concentration at which ibuprofen is associated with a decrease in PMN migration in vivo, we measured the PMN content of oral mucosal washes in 35 healthy (age 19-40 years) and 16 CF (age 18-32 years) subjects who took ibuprofen twice daily for 10 days in doses that achieved Cmax 8 to 90 microg/ml. Cmax >50 microg/ml was associated with a 31 +/- 7% (mean +/- S.E.M.) reduction in PMNs in CF (n = 11, p < 0.001) and 25 +/- 6% reduction in PMNs in healthy subjects (n = 16, p < 0.001). Increasing concentrations above 50 microg/ml was not associated with a greater decrease in PMNs. The reduction in PMN migration was consistently present 12 h after a dose, but not after 24 h. Cmax <50 microg/ml was associated with an increase in PMNs of approximately 40%. These results suggest that Cmax >50 microg/ml and twice daily dosing of ibuprofen are required to decrease PMN migration, and reinforce the current recommendation that pharmacokinetics should be performed in CF patients prescribed ibuprofen.     

胸部撞击伤时游离Ca2+浓度与中性粒细胞凋亡及肺损伤的关系

目的 :动态观察兔胸部撞击伤时中性粒细胞 (PMN)凋亡的发生以及与肺损伤之间的关系。方法 :制备兔胸部撞击伤模型 ,分离纯化肺灌洗液中的 PMN,应用流式细胞术测定 PMN凋亡、坏死、存活细胞比例及呼吸爆发功能的变化 ,并且观察与乳酸脱氢酶 (L DH)和胞浆游离 Ca2 变化之间的关系。结果 :肺灌洗液中PMN的凋亡延迟持续至 12小时 ,在伤后各时间点活细胞增多 ;而肺灌洗液 PMN呼吸爆发从伤后 2小时即显著增强 ,8小时达到峰值 ;同时肺灌洗液 L DH的升高在伤后 4～ 2 4小时显著高于正常对照组 ;伤后 PMN胞浆游离 Ca2 有短暂升高。结论 :胸部撞击伤时 ,PMN在肺组织中大量扣押 ,且正常的凋亡途径发生障碍 ,造成PMN持续处于激活状态及毒性内容物的持续释放 ,与肺组织损伤有密切关系 ,并且 PMN凋亡延迟可能与胞浆游离 Ca2 的短暂升高有关     

Acute hypoxemia in humans enhances the neutrophil inflammatory response

The neutrophil (PMN) is regarded as a key component in the hyperinflammatory response known as the systemic inflammatory response syndrome. Acute respiratory distress syndrome (ARDS) and subsequent multiple organ failure (MOF) are related to the severity of this hyperinflammation. ICU patients who are at highest risk of developing MOF may have acute hypoxic events that complicate their hospital course. This study was undertaken to evaluate the effects of acute hypoxia and subsequent hypoxemia on circulating PMNs in human volunteers. Healthy subjects were exposed to a changing O2/N2 mixture until their O2 saturation (SaO2) reached a level of 68% saturation. These subjects were then exposed to room air and then returned to their baseline SaO2. PMNs were isolated from pre- and post-hypoxemic arterial blood samples and were then either stimulated with N-formyl-methionyl-leucyl-phenylalanine (fMLP) or PMA alone, or they were primed with L-alpha-phosphatidylcholine, beta-acetyl-gamma-O-alkyl (PAF) followed by fMLP activation. Reactive oxygen species generation as measured by superoxide anion production was enhanced in primed PMNs after hypoxemia. Protease degranulation as measured by elastase release was enhanced in both quiescent PMNs and primed PMNs after fMLP activation following the hypoxemic event. Adhesion molecule upregulation as measured by CD11b/CD18, however, was not significantly changed after hypoxemia. Apoptosis of quiescent PMNs was delayed after the hypoxemic event. TNFalpha, IL-1, IL-6, and IL-8 cytokine levels were unchanged following hypoxemia. These results indicate that relevant acute hypoxemic events observed in the clinical setting enhance several PMN cytotoxic functions and suggest that a transient hypoxemic insult may promote hyperinflammation.     

Thrombospondin cooperates with CD36 and the vitronectin receptor in macrophage recognition of neutrophils undergoing apoptosis.

We have investigated the cell surface recognition mechanisms used by human monocyte-derived macrophages (M phi) in phagocytosis of intact aging human neutrophils (PMNs) undergoing apoptosis. This study shows that the adhesive protein thrombospondin (TSP) was present in the interaction, both associated with the M phi surface and in solution at a mean concentration of 0.59 micrograms/ml. The interaction was inhibited by treatment of M phi (but not aged PMN) with cycloheximide, but could be "rescued" by replenishment with exogenous TSP. Under control conditions, M phi recognition of aged PMNs was specifically potentiated by purified platelet TSP at 5 micrograms/ml, present either in the interaction or if preincubated with either cell type, suggesting that TSP might act as a "molecular bridge" between the two cell types. In support, both aged PMN and M phi were found to adhere to TSP, and phagocytosis of aged PMN was specifically inhibited by (a) excess soluble TSP; (b) antibodies to TSP that also inhibit TSP-mediated adhesion to aged PMN; and (c) down-regulation of M phi receptors for TSP by plating M phi on TSP-coated surfaces. Furthermore, inhibition with mAbs/Arg-Gly-Asp-Ser peptide of the candidate M phi receptors for TSP, CD36, and alpha v beta 3 exerted synergistic effects on both M phi recognition of aged PMN and M phi adhesion to TSP, indicating that "two point" adhesion of TSP to these M phi structures is involved in phagocytosis of aged PMN. Our findings indicate newly defined roles for TSP and CD36 in phagocytic clearance of senescent neutrophils, which may limit inflammatory tissue injury and promote resolution.     

Apoptosis, oxidative metabolism and interleukin-8 production in human neutrophils exposed to azithromycin: effects of Streptococcus pneumoniae

Pathogen virulence factors and the host inflammatory response cause tissue injury associated with respiratory tract infections. The azalide azithromycin has demonstrated efficacy in the treatment of these infections. It has been demonstrated previously that induction of polymorphonuclear leucocyte (PMN) apoptosis is associated with minimization of tissue damage and inflammation in the lung. We hypothesized that, in addition to its antibacterial effects, azithromycin may promote apoptosis. The aim of the study was to determine the effects of azithromycin on PMN apoptosis, oxidative function and interleukin-8 (IL-8) production in the presence or absence of Streptococcus pneumoniae, in comparison with penicillin, erythromycin, dexamethasone or phosphate-buffered saline. Human circulating PMNs were assessed for apoptosis (by annexin V labelling and ELISA), oxidative function (by nitroblue tetrazolium reduction) and IL-8 production (by ELISA). Azithromycin significantly induced PMN apoptosis in the absence of S. pneumoniae after 1 h (10.27% +/- 1.48%, compared with 2.19% +/- 0.42% in controls) to levels similar to those after 3 h induction with tumour necrosis factor-alpha (8. 73% +/- 1.86%). This effect was abolished in the presence of S. pneumoniae. Apoptosis in PMNs exposed to the other drugs was not significantly different from that in controls. Azithromycin did not affect PMN oxidative metabolism or IL-8 production. In summary, azithromycin-induced PMN apoptosis may be detected in the absence of any effect on PMN function, and the pro-apoptotic properties of azithromycin are inhibited in the presence of S. pneumoniae.     

Stored red blood cells selectively activate human neutrophils to release IL-8 and secretory PLA2

Packed red blood cell (PRBC) transfusion has been invoked previously with immunosuppression and increased infections, but it has now been demonstrated that stored PRBCs (>14 days) can prime PMNs and provoke multiple organ failure. Recently, the role of PMNs in the genesis of MOF has been extended to their release of inflammatory cytokines, notably IL-1, IL-8, TNFalpha, and secretory phospholipase A2 (sPLA2). We hypothesize that stored PRBCs can act as a second event via stimulating the release of inflammatory cytokines from PMNs. Isolated human PMNs were incubated for 24 h in RPMI with either 20% fresh plasma or plasma from 42 day old PRBC (day of outdate) and release of IL-8, IL-1beta, TNFalpha, and sPLA2 were measured. Plasma from stored PRBCs contained small amounts of IL-8, sPLA2, and TNFalpha (102.1 +/-5.6 pg/ml, 87.6+/-6.0 pg/ml and 9.7+/-.7 pg/ml). Levels of IL-1beta were below detection (<1 pg/ml). Day 42 PRBC plasma stimulated significant PMN release of both IL-8 and sPLA2 as compared to both control and day 0 plasma (*P < .05), but PRBC plasma did not stimulate PMN release of either IL-1beta or TNFalpha. Transfused blood is emerging as an inflammatory agent that is capable of producing PMN priming. In this study we have demonstrated that PRBC plasma selectively activates PMNs to release both IL-8 and sPLA2. Thus, transfusion of PRBCs may represent a preventable inflammatory insult via modification of both blood banking and transfusion practices.